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W4317495076 abstract "It has been challenging for agricultural scientists to develop a quick, reliable, nondestructive, and cost-effective analytical technique for early detection/diagnosis of diseases in plants and plant products. It reduces the time to release the plant varieties resistant to different diseases. Also, it helps faster protection from diseases by using corrective measures immediately after detecting the infections/diseases. A proper diagnosis of diseases in plants or plant products requires precise identification, which needs an accurate and easy method or technique. This statement seems to be in a synonymic connection with the implementation of photoacoustic spectroscopy (PAS) to diagnose diseases in plants in agricultural science. PAS has several advantages in comparison with other spectroscopic/optical techniques. Unlike conventional spectroscopy, it needs little sample preparation, and scattering does not pose any problems as scattering and reflection losses do not produce PA signals. This aspect is desirable for studying plant samples, which generally correspond to scattering media. PAS technique is based on nonradiative transitions, which are the major pathway of energy transfer in the plants after absorption of electromagnetic radiation. PAS can be used for in vivo and in situ studies of an intact leaf. In this chapter, PAS is presented as a valuable optional technique for identifying and diagnosing various plant diseases. The chapter begins with the basic principles of PAS for beginners, which may be helpful to research-level agricultural scientists. The studies on healthy leaves and those infected by fungal and viral diseases were carried out systematically. The presence of various biomolecules was detected in varying proportions in dry spores of several pathogens. The healthy and infected wheat leaves by brown rust in different geometries were investigated, and the nutritional deficiency in cotton plants was also carried out. A detailed review of the work related to PAS done in our group and other groups is presented in this chapter." @default.
W4317495076 created "2023-01-20" @default.
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W4317495076 date "2023-01-01" @default.
W4317495076 modified "2023-09-28" @default.
W4317495076 title "Photoacoustic spectroscopy: a novel optical characterization technique in agricultural science" @default.
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W4317495076 doi "https://doi.org/10.1016/b978-0-323-91732-2.00017-3" @default.
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